DE408181C - Process for the production of acetaldehyde from acetylene - Google Patents

Description

Process for the production of acetaldehyde from acetylene. The invention refers to the manufacture of acetaldehyde by introducing acetylene into it acidic, catalytically active solutions containing mercury salts and aims the extension of the duration of action of these catalysts.

It is already known to use weak acidic solutions for this purpose Oxidizing agents, e.g. B. ferric compounds, or stronger, chroniates, add. This procedure has the disadvantage that the acidic Solution becomes more and more contaminated and eventually becomes unusable.

According to the invention, the duration of action is maintained of the mercury catalytic converters with the help of gaseous oxygen that the oxygen supply is adjusted to such a level that the oxygen practically does not react with the acetaldehyde formed. Appropriate one proceeds in such a way that the oxygen in the reaction liquid is electrolytically generated. In this way one can, as has been found, the strong ability to oxidize of the electrolytically generated oxygen for the regeneration of the mercury compound make usable and thereby avoid the urinary oxidation of acetaldehyde. Furthermore, the mode of operation offers the advantage of a particularly simple regulation the oxygen supply.

It is already known to use electrolytic metallic mercury To oxidize the stream. This fact was borne out in the manufacture of acetaldehyde but so far only made use of the fact that one of the acidic reaction liquid separated mercury sludge from this and in a special bath an alkaline electrolyte subjected to anodic oxidation.

As was further found, one can see the effects of oxygen through Addition of oxygen carriers, e.g. B. ferrous salts, to the acidic reaction liquid favor and nevertheless the undesired further oxidation of the acetaldehyde formed avoid. Since the additives only have an oxygen-transferring effect here, so only once are required in relatively small quantities, they give in contrast to the aforementioned known methods to an increasing contamination of the reaction liquid no cause.

The oxygen treatment can be continuous or intermittent Companies, at the same time or alternately with the acetyl rope introducing or also separately take place thereof, e.g. D. in such a way that the reaction liquid circulates through different vessels are moved, where in one vessel the acetylene deposition occurs a second the oxygen treatment takes place.

Examples: i. 500 g of sulfuric acid of about 10 percent are mixed with 5 to 10 g of mercury oxide and heated to about 70 to 80 °. A stream of excess acetylene is passed through the heated weight while stirring, to which about 20 percent oxygen is added. After the acetaldehyde formed has been removed from the gas mixture, it is returned to the reaction vessel, adding an amount of fresh acetylene-oxygen mixture corresponding to the gases used.

2. 500 g of sulfuric acid of 10 percent are mixed with 10 g of mercury oxide and heated to 70 ° while passing through a. Excess acetylene stream. At the same time one leads by means of a suitable metal, z. B. platinum, existing anode direct current of 0.5 to 1.5 amps through the reaction liquid. The cathode, which z. B. consists of lead, is separated from the reaction liquid by a diaphragm. The strength of the electric current is measured so low that the oxygen content of the gas mixture, which is returned according to Example i, does not exceed a few percent, e.g. B. to q. Percent rises, on the other hand so high that the rate of absorption of the acetylene, in this case about 20 liters per hour, does not decrease.

3. 50o g of sulfuric acid of 15 percent of "ground with iog Quecksillaeroxy d 1 and 5 g Eisenoxydulsulfat added. At 70 to 50 a, a current of excess acetylene is passed through the solution according to example a and at the same time a direct current of about 0.5 amperes is introduced by means of a platinum anode. The cathode is freely arranged in the reaction liquid so that the The circulating gas mixture is gradually enriched with hydrogen.As this causes the absorption rate to decrease after a certain time, the gas mixture is replaced from time to time by fresh acetylene.

Although it is already known, acetylene and oxygen at the same time, while reducing the consumption of mercury salts, in an acidic solution. to direct. However, these known methods are not intended to produce Acetaldehy d, but the direct conversion of acetylene into acetic acid Introducing the gases into a water-soluble fatty acid mixed with mercury salts, preferably acetic acid, itself. In this process, the oxygen provides one , for testing the end product is the necessary reaction component. It must therefore be supplied in correspondingly large quantities. ; Finally there is also a Process for producing @on acetaldehyde has been protected in addition to acetic acid, which is that in the sulfuric acid and mercury, Vera indungen as a contact mass containing reaction liquid permanently or temporarily, at the same time or alternately with acetylene-oxygen or air, is introduced, - being on a Equivalent of mercury sulphate at least one equivalent of sch-, vefelsäure for use comes.

This process does not produce pure acetaldehyde, but acetaldehyde and acetic acid by introducing acetylene and oxygen using Asbestos flour or infusor earth obtained as catalysts in addition to mercury oxide.

In contrast to this procedure, according to the present invention using an acetylene-oxygen mixture practically pure acetaldehyde without significant amounts of acetic acid produced by using only a mercury catalyst, but without addition. from infusor earth and without = @ sbestmehl, works. Through this The way of working succeeds in practically preventing the formation of acetic acid with the older method to a considerable extent: occurs. The extraction of pure acetaldehyde according to the invention, compared to the earlier mentioned process, inter alia. for this reason a technical advance because of the separation of acetic acid from the reaction liquid was associated with great technical difficulties.

Claims (2)

PATENT CLAIMS: i. Process for the production of acetaldehyde from a mixture of acetylene and oxygen, characterized in that the catalytic Effectiveness of the mercury compounds while avoiding the use of asbestos flour, Infusor earth and similar substances that promote the formation of acetic acid Supply of such upwardly limited amounts of oxygen is maintained that the oxygen practically does not react with the acetaldehyde that is formed received, -v obei appropriate for the presence of oxygen carriers, z. B. ferrous salts, Care is taken. 2. The method according to claim 2, characterized in that the Oxygen is generated electrolytically in the reaction liquid.